//
// Copyright (c) 2016-2021 CNRS INRIA
//

#ifndef __pinocchio_multibody_joint_generic_hpp__
#define __pinocchio_multibody_joint_generic_hpp__

#include "pinocchio/multibody/joint/joint-collection.hpp"
#include "pinocchio/multibody/joint/joint-composite.hpp"
#include "pinocchio/multibody/joint/joint-basic-visitors.hxx"
#include "pinocchio/container/aligned-vector.hpp"

#include <boost/mpl/contains.hpp>

namespace pinocchio
{

  template<
    typename Scalar,
    int Options = context::Options,
    template<typename S, int O> class JointCollectionTpl = JointCollectionDefaultTpl>
  struct JointTpl;
  typedef JointTpl<context::Scalar> Joint;

  template<typename _Scalar, int _Options, template<typename S, int O> class JointCollectionTpl>
  struct traits<JointTpl<_Scalar, _Options, JointCollectionTpl>>
  {
    enum
    {
      Options = _Options,
      NQ = Eigen::Dynamic, // Dynamic because unknown at compile time
      NV = Eigen::Dynamic
    };

    typedef _Scalar Scalar;
    typedef JointCollectionTpl<Scalar, Options> JointCollection;
    typedef JointDataTpl<Scalar, Options, JointCollectionTpl> JointDataDerived;
    typedef JointModelTpl<Scalar, Options, JointCollectionTpl> JointModelDerived;

    typedef JointMotionSubspaceTpl<Eigen::Dynamic, Scalar, Options> Constraint_t;
    typedef SE3Tpl<Scalar, Options> Transformation_t;
    typedef MotionTpl<Scalar, Options> Motion_t;
    typedef MotionTpl<Scalar, Options> Bias_t;

    // [ABA]
    typedef Eigen::Matrix<Scalar, 6, Eigen::Dynamic, Options> U_t;
    typedef Eigen::Matrix<Scalar, Eigen::Dynamic, Eigen::Dynamic, Options> D_t;
    typedef Eigen::Matrix<Scalar, 6, Eigen::Dynamic, Options> UD_t;

    typedef Constraint_t ConstraintTypeConstRef;
    typedef Constraint_t ConstraintTypeRef;
    typedef Transformation_t TansformTypeConstRef;
    typedef Transformation_t TansformTypeRef;
    typedef Motion_t MotionTypeConstRef;
    typedef Motion_t MotionTypeRef;
    typedef Bias_t BiasTypeConstRef;
    typedef Bias_t BiasTypeRef;
    typedef U_t UTypeConstRef;
    typedef U_t UTypeRef;
    typedef D_t DTypeConstRef;
    typedef D_t DTypeRef;
    typedef UD_t UDTypeConstRef;
    typedef UD_t UDTypeRef;

    typedef Eigen::Matrix<Scalar, Eigen::Dynamic, 1, Options> ConfigVector_t;
    typedef Eigen::Matrix<Scalar, Eigen::Dynamic, 1, Options> TangentVector_t;

    typedef ConfigVector_t ConfigVectorTypeConstRef;
    typedef ConfigVector_t ConfigVectorTypeRef;
    typedef TangentVector_t TangentVectorTypeConstRef;
    typedef TangentVector_t TangentVectorTypeRef;
  };

  template<typename _Scalar, int _Options, template<typename S, int O> class JointCollectionTpl>
  struct traits<JointDataTpl<_Scalar, _Options, JointCollectionTpl>>
  {
    typedef JointTpl<_Scalar, _Options, JointCollectionTpl> JointDerived;
    typedef typename traits<JointDerived>::Scalar Scalar;
  };

  template<typename _Scalar, int _Options, template<typename S, int O> class JointCollectionTpl>
  struct traits<JointModelTpl<_Scalar, _Options, JointCollectionTpl>>
  {
    typedef JointTpl<_Scalar, _Options, JointCollectionTpl> JointDerived;
    typedef typename traits<JointDerived>::Scalar Scalar;
  };

  template<typename _Scalar, int _Options, template<typename S, int O> class JointCollectionTpl>
  struct JointDataTpl
  : public JointDataBase<JointDataTpl<_Scalar, _Options, JointCollectionTpl>>
  , JointCollectionTpl<_Scalar, _Options>::JointDataVariant
  {
    EIGEN_MAKE_ALIGNED_OPERATOR_NEW

    typedef JointTpl<_Scalar, _Options, JointCollectionTpl> JointDerived;
    typedef JointDataBase<JointDataTpl> Base;

    PINOCCHIO_JOINT_DATA_TYPEDEF_TEMPLATE(JointDerived);

    typedef JointCollectionTpl<_Scalar, _Options> JointCollection;
    typedef typename JointCollection::JointDataVariant JointDataVariant;

    using Base::operator==;
    using Base::operator!=;

    JointDataVariant & toVariant()
    {
      return *static_cast<JointDataVariant *>(this);
    }
    const JointDataVariant & toVariant() const
    {
      return *static_cast<const JointDataVariant *>(this);
    }

    ConfigVector_t joint_q() const
    {
      return pinocchio::joint_q(*this);
    }
    TangentVector_t joint_v() const
    {
      return pinocchio::joint_v(*this);
    }
    Constraint_t S() const
    {
      return joint_motin_subspace_xd(*this);
    }
    Transformation_t M() const
    {
      return joint_transform(*this);
    }
    Motion_t v() const
    {
      return motion(*this);
    }
    Bias_t c() const
    {
      return bias(*this);
    }

    // [ABA CCRBA]
    U_t U() const
    {
      return u_inertia(*this);
    }
    D_t Dinv() const
    {
      return dinv_inertia(*this);
    }
    UD_t UDinv() const
    {
      return udinv_inertia(*this);
    }
    D_t StU() const
    {
      return stu_inertia(*this);
    }

    JointDataTpl()
    : JointDataVariant()
    {
    }

    JointDataTpl(const JointDataVariant & jdata_variant)
    : JointDataVariant(jdata_variant)
    {
    }

    template<typename JointDataDerived>
    JointDataTpl(const JointDataBase<JointDataDerived> & jdata)
    : JointCollection::JointDataVariant((JointDataVariant)jdata.derived())
    {
      BOOST_MPL_ASSERT((boost::mpl::contains<typename JointDataVariant::types, JointDataDerived>));
    }

    // Define all the standard accessors
    ConfigVector_t joint_q_accessor() const
    {
      return joint_q();
    }
    TangentVector_t joint_v_accessor() const
    {
      return joint_v();
    }
    Constraint_t S_accessor() const
    {
      return S();
    }
    Transformation_t M_accessor() const
    {
      return M();
    }
    Motion_t v_accessor() const
    {
      return v();
    }
    Bias_t c_accessor() const
    {
      return c();
    }
    U_t U_accessor() const
    {
      return U();
    }
    D_t Dinv_accessor() const
    {
      return Dinv();
    }
    UD_t UDinv_accessor() const
    {
      return UDinv();
    }
    D_t StU_accessor() const
    {
      return StU();
    }

    static std::string classname()
    {
      return "JointData";
    }
    std::string shortname() const
    {
      return ::pinocchio::shortname(*this);
    }

    template<typename JointDataDerived>
    bool isEqual(const JointDataBase<JointDataDerived> & other) const
    {
      return ::pinocchio::isEqual(*this, other.derived());
    }

    bool isEqual(const JointDataTpl & other) const
    {
      return Base::isEqual(other) && toVariant() == other.toVariant();
    }

    bool operator==(const JointDataTpl & other) const
    {
      return isEqual(other);
    }

    bool operator!=(const JointDataTpl & other) const
    {
      return !(*this == other);
    }
  };

  template<
    typename NewScalar,
    typename Scalar,
    int Options,
    template<typename S, int O> class JointCollectionTpl>
  struct CastType<NewScalar, JointModelTpl<Scalar, Options, JointCollectionTpl>>
  {
    typedef JointModelTpl<NewScalar, Options, JointCollectionTpl> type;
  };

  template<typename _Scalar, int _Options, template<typename S, int O> class JointCollectionTpl>
  struct JointModelTpl
  : JointModelBase<JointModelTpl<_Scalar, _Options, JointCollectionTpl>>
  , JointCollectionTpl<_Scalar, _Options>::JointModelVariant
  {
    EIGEN_MAKE_ALIGNED_OPERATOR_NEW

    typedef JointTpl<_Scalar, _Options, JointCollectionTpl> JointDerived;

    PINOCCHIO_JOINT_TYPEDEF_TEMPLATE(JointDerived);
    PINOCCHIO_JOINT_USE_INDEXES(JointModelTpl);

    typedef JointCollectionTpl<Scalar, Options> JointCollection;
    typedef typename JointCollection::JointDataVariant JointDataVariant;
    typedef typename JointCollection::JointModelVariant JointModelVariant;

    using Base::id;
    using Base::setIndexes;
    using Base::operator==;
    using Base::operator!=;

    JointModelTpl()
    : JointModelVariant()
    {
    }

    JointModelTpl(const JointModelVariant & jmodel_variant)
    : JointCollection::JointModelVariant(jmodel_variant)
    {
    }

    const std::vector<bool> hasConfigurationLimit() const
    {
      return ::pinocchio::hasConfigurationLimit(*this);
    }

    const std::vector<bool> hasConfigurationLimitInTangent() const
    {
      return ::pinocchio::hasConfigurationLimitInTangent(*this);
    }

    template<typename JointModelDerived>
    JointModelTpl(const JointModelBase<JointModelDerived> & jmodel)
    : JointModelVariant((JointModelVariant)jmodel.derived())
    {
      BOOST_MPL_ASSERT(
        (boost::mpl::contains<typename JointModelVariant::types, JointModelDerived>));
    }

    JointModelVariant & toVariant()
    {
      return *static_cast<JointModelVariant *>(this);
    }

    const JointModelVariant & toVariant() const
    {
      return *static_cast<const JointModelVariant *>(this);
    }

    JointDataDerived createData() const
    {
      return ::pinocchio::createData<Scalar, Options, JointCollectionTpl>(*this);
    }

    template<typename JointModelDerived>
    bool isEqual(const JointModelBase<JointModelDerived> & other) const
    {
      return ::pinocchio::isEqual(*this, other.derived());
    }

    template<typename JointModelDerived>
    bool hasSameIndexes(const JointModelBase<JointModelDerived> & other) const
    {
      return ::pinocchio::hasSameIndexes(*this, other.derived());
    }

    bool isEqual(const JointModelTpl & other) const
    {
      return Base::isEqual(other) && toVariant() == other.toVariant();
    }

    bool operator==(const JointModelTpl & other) const
    {
      return isEqual(other);
    }

    bool operator!=(const JointModelTpl & other) const
    {
      return !(*this == other);
    }

    template<typename ConfigVector>
    void calc(JointDataDerived & data, const Eigen::MatrixBase<ConfigVector> & q) const
    {
      calc_zero_order(*this, data, q.derived());
    }

    template<typename TangentVector>
    void calc(
      JointDataDerived & data, const Blank blank, const Eigen::MatrixBase<TangentVector> & v) const
    {
      calc_first_order(*this, data, blank, v.derived());
    }

    template<typename ConfigVector, typename TangentVector>
    void calc(
      JointDataDerived & data,
      const Eigen::MatrixBase<ConfigVector> & q,
      const Eigen::MatrixBase<TangentVector> & v) const
    {
      calc_first_order(*this, data, q.derived(), v.derived());
    }

    template<typename VectorLike, typename Matrix6Like>
    void calc_aba(
      JointDataDerived & data,
      const Eigen::MatrixBase<VectorLike> & armature,
      const Eigen::MatrixBase<Matrix6Like> & I,
      const bool update_I) const
    {
      ::pinocchio::calc_aba(
        *this, data, armature.derived(), PINOCCHIO_EIGEN_CONST_CAST(Matrix6Like, I), update_I);
    }

    std::string shortname() const
    {
      return ::pinocchio::shortname(*this);
    }
    static std::string classname()
    {
      return "JointModel";
    }

    int nq_impl() const
    {
      return ::pinocchio::nq(*this);
    }
    int nv_impl() const
    {
      return ::pinocchio::nv(*this);
    }

    int idx_q_impl() const
    {
      return ::pinocchio::idx_q(*this);
    }
    int idx_v_impl() const
    {
      return ::pinocchio::idx_v(*this);
    }

    JointIndex id_impl() const
    {
      return ::pinocchio::id(*this);
    }

    void setIndexes(JointIndex id, int nq, int nv)
    {
      ::pinocchio::setIndexes(*this, id, nq, nv);
    }

    /// \returns An expression of *this with the Scalar type casted to NewScalar.
    template<typename NewScalar>
    JointModelTpl<NewScalar, Options, JointCollectionTpl> cast() const
    {
      return cast_joint<NewScalar, Scalar, Options, JointCollectionTpl>(*this);
    }
  };

  typedef PINOCCHIO_ALIGNED_STD_VECTOR(JointData) JointDataVector;
  typedef PINOCCHIO_ALIGNED_STD_VECTOR(JointModel) JointModelVector;

  template<
    typename Scalar,
    int Options,
    template<typename S, int O> class JointCollectionTpl,
    typename JointDataDerived>
  bool operator==(
    const JointDataBase<JointDataDerived> & joint_data,
    const JointDataTpl<Scalar, Options, JointCollectionTpl> & joint_data_generic)
  {
    return joint_data_generic == joint_data.derived();
  }

  template<
    typename Scalar,
    int Options,
    template<typename S, int O> class JointCollectionTpl,
    typename JointDataDerived>
  bool operator!=(
    const JointDataBase<JointDataDerived> & joint_data,
    const JointDataTpl<Scalar, Options, JointCollectionTpl> & joint_data_generic)
  {
    return joint_data_generic != joint_data.derived();
  }

  template<
    typename Scalar,
    int Options,
    template<typename S, int O> class JointCollectionTpl,
    typename JointModelDerived>
  bool operator==(
    const JointModelBase<JointModelDerived> & joint_model,
    const JointModelTpl<Scalar, Options, JointCollectionTpl> & joint_model_generic)
  {
    return joint_model_generic == joint_model.derived();
  }

  template<
    typename Scalar,
    int Options,
    template<typename S, int O> class JointCollectionTpl,
    typename JointModelDerived>
  bool operator!=(
    const JointModelBase<JointModelDerived> & joint_model,
    const JointModelTpl<Scalar, Options, JointCollectionTpl> & joint_model_generic)
  {
    return joint_model_generic != joint_model.derived();
  }

} // namespace pinocchio

#endif // ifndef __pinocchio_multibody_joint_generic_hpp__
